Embed Size (px)
Citation preview
HIM-17RJ30-05404
INSTALLATION INSTRUCTIONS & PARTS LIST
HORIZONTAL STEAM AND HOT WATER UNIT HEATERS
Unit No. Serial No.
ATTENTION: READ THIS MANUAL AND ALL LABELS ATTACHED TO THE UNIT CAREFULLY BEFORE ATTEMPTING TO INSTALL, OPERATE OR SERVICE THESE UNITS! CHECK UNIT DATA PLATE FOR TYPE OF GAS AND ELECTRICAL SPECIFICATIONS AND MAKE CERTAIN THAT THESE AGREE WITH THOSE AT POINT OF INSTALLATION. RECORD THE UNIT MODEL AND SERIAL No.(s) IN THE SPACE PROVIDED. RETAIN FOR FUTURE REFERENCE.
INSTALLER’S RESPONSIBILITYInstaller Please Note: This equipment has been tested and inspected. It has been shipped free from defects from our factory. However, during shipment and installation, problems such as loose wires, leaks or loose fasteners may occur. It is the installer’s responsibility to inspect and correct any problems that may be found.
Improper installation, adjustment, alteration, service or maintenance can cause property damage, injury or death. Read the installation, operating and maintenance instructions thoroughly before installing or servicing this equipment.
RECEIVING INSTRUCTIONSInspect shipment immediately when received to determine if any damage has occurred to the unit during shipment. After the unit has been uncrated, check for any visible damage to the unit. Turn fan by hand to determine if damage has occurred. If any damage is found, the consignee should sign the bill of lading indicating such damage and immediately file claim for damage with the transportation company.
11/16
260 NORTH ELM ST., WESTFIELD, MA 01085TEL: (413) 568-9571 FAX: (413) 562-5311
www.mestek.com
2
TABLE OF CONTENTS
GENERAL SAFETY INFORMATION ..........................3SPECIFICATIONS Dimensional Data ..................................................4 Steam Performance Data .......................................5 Steam Calculations & Correction Factors ............... 6 Hot Water Performance Data ................................7 Hot Water Calculations & Correction Factors ........ 8 Technical Data .......................................................9 Motor Data ...........................................................10LOCATION ............................................................... 11INSTALLATION Unit Mounting .......................................................12 Piping ...............................................................12-16
The following terms are used throughout this manual, in addition to ETL requirements, to bring attention to thepresence of potential hazards or to important information concerning the product:
Horizontal hydronic unit heaters are available in both serpentine and header type units. Serpentine units offer outputs from 8,030 to 35,900 BTU’s (2.4 to 10.5 kW) and are ideal for hot water (only) installations with limited clearances. Header type horizontal units range from 18,000 to 360,000 (5.3 to 105.5 kW) and can operate with either hot water or steam. Both units are furnished
Figure 1SerpentineType
Indicates an imminently hazardous situation which, if not avoided, will result in death, serious injury or substantial property damage.
I n d i c a t e s a n i m m i n e n t l y hazardous situation which, if not avoided, could result in death, serious injury or substantial property damage.
Indicates an imminently hazardous situation which, if not avoided, may result in minor injury or property damage.
NOTICE: Used to notify of special instructions on installation, operation or maintenance which are important to equipment but not related to personal injury hazards.
ELECTRICAL CONNECTIONS ................................17 Operation .............................................................17 Thermostat Wiring and Location ..........................17WIRING INSTALLATION ..........................................18OPTIONS .................................................................19MAINTENANCE .......................................................20REPLACEMENT PARTS ..........................................21TROUBLESHOOTING GUIDE ..................................22WARRANTY ..............................................................23INSPECTION SHEET ................................................24
NOTICE: It is the owner’s responsibility to provide any scaffolding or other apparatus required to perform emergency service or annual/periodic maintenance to this equipment.
Figure 2HeaderType
with totally enclosed motors, with explosion proof motors as optional on header types. The designs are certified by ETL to CSA-C22.2 and UL1995. Do not alter these units in any way and do not attach any ductwork to the units. If you have any questions after reading this manual, contact the manufacturer.
DESCRIPTION
3
Failure to comply with the general safety information may result in extensive property damage, severe personal injury or death.
Do not alter the unit heater in any way or damage to the unit and/or severe personal injury or death may occur!
Disconnect all power supplies before installing or servicing the heater. If the power disconnect is out of sight, lock it in the open position and tag it to prevent unexpected application of power. Failure to do so could result in fatal electric shock, or severe personal injury.
Insure that all power sources conform to the requirements of the unit heater or damage to the unit will result!
Follow installation instructions CAREFULLY to avoid creating unsafe conditions. All external wiring must conform to applicable current local codes, and to the latest edition of the National Electric Code ANSI/NFPA No. 70. In Canada, all external wiring must conform to the Canadian Electric Code, Part 1 CSA Standard C22.1 All wiring should be done and checked by a qualified electrician using copper wire only. All steam and hot water connections should be made and leak-tested by a suitably qualified individual, per instructions in this manual. Also follow procedures listed on the “Unit Equipment Start-Up Sheet” located in this manual.
Make certain that the power source conforms to the electrical requirements of the heater.
Do not depend upon a thermostat or other switch as sole means of disconnecting power when installing or servicing heater. Always disconnect power at main circuit breaker as described above. Failure to do so could result in fatal electric shock.
Special attention must be given to any grounding information pertaining to this heater. To prevent the risk of electrocution, the heater must be securely and adequately grounded. This should be accomplished by connecting a grounded conductor between the service panel and the heater. To ensure a proper ground, the grounding means must be tested by a qualified electrician.
GENERAL SAFETY INFORMATIONDo not insert fingers or foreign objects into the heater or its air moving device. Do not block or tamper with the heater in any manner while in operation or just after it has been turned off, as some parts may be hot enough to cause injury.
To meet ETL and OSHA requirements, units mounted below 8 feet (2.4m) from the floor must be equipped with an OSHA fan guard. It is good practice to have a shutoff switch on the electrical power lines controlling the heater. Whenever a unit is serviced, shut power off to the unit. Since these units are installed in most instances higher than 8 feet (2.4m), proper type of ladders or scaffolding should be used, as set up by OSHA requirements (see Notice on page 2).
In industrial plants, professional maintenance crews should service this equipment.
All Horizontal Unit Heaters are shipped fully assembled and may be used for steam or hot water applications. Coils are factory tested at 250 psig (1723.5 kg).
Each unit is packaged individually and marked for proper identification. Use normal care in handling and during installation to prevent damage to the coils fins, fan and casing.
Unless otherwise specified, the following conversions may be used for calculating SI unit measurements:1 foot = 0.305 m1 inch = 25.4 mm1 psig = 6.894 kPa1 pound = 0.453 kg1 gallon = 3.785 L
1 inch water column = 0.249 kPameter/second = FPM ÷ 196.8liter/second = CFM x 0.4721000 Btu per hour = 0.293 kW1000 Btu/Cu. Ft. = 37.5 MJ/m3
1 cubic foot = 0.028 m3
4
145⁄8(371)145⁄8(371)171⁄8(435)171⁄8(435)183⁄8(467)207⁄8(530)195⁄8(498)207⁄8(530)233⁄8(594)233⁄8(594)245⁄8(625)277⁄8(708)277⁄8(708)333⁄8(848)
12¼(311)12¼(311)14¾(375)14¾(375)
16(406)18½(470)17¼(438)18½(470)
21(533)
21(533)22¼(565)25½(648)25½(648)
31(787)
4
5
6
6
7
8
8
8
9
9
9
10
10
13
18
2436
48
60
72
84
96108
120
132144
156
180204
240
280
300360
75⁄16
(186)75⁄16
(186)89⁄16
(217)89⁄16
(217)93⁄16
(233)107⁄16
(265)913⁄16
(249)107⁄16
(265)1111⁄16
(297)1111⁄16
(297)125⁄16
(313)1315⁄16
(354)1315⁄16
(354)1611⁄16
(424)
15(381)
18(457)20½(521)20½(521)21¾(552)24¼(616)
24(610)25¼(641)27¾(705)27¾(705)
29(737)30¼(768)30¼(768)37¾(959)
7½(191)
9(229)10¼(260)10¼(260)107⁄8(276)121⁄8(308)
12(305)125⁄8(321)137⁄8(352)137⁄8(352)14½(368)151⁄8(384)151⁄8(384)187⁄8(479)
61⁄8(156)61⁄8
(156)57⁄8
(149)57⁄8
(149)6
(152)61⁄8
(156)65⁄16
(160)65⁄16
(160)65⁄16
(160)65⁄16
(160)63⁄8
(162)81⁄8
(206)81⁄8
(206)9
(229)
215⁄16
(75)215⁄16
(75)215⁄16
(75)215⁄16
(75)215⁄16
(75)215⁄16
(75)33⁄16
(81)33⁄16
(81)33⁄16
(81)33⁄16
(81)33⁄16
(81)33⁄16
(81)33⁄16
(81)33⁄16
(81)
3¼(83)3¼(83)511⁄16
(144)51⁄16
(129)51⁄16
(129)511⁄16
(144)7½
(191)611⁄16
(170)75⁄8
(194)77⁄16
(194)77⁄16
(194)57⁄8
(149)95⁄8
(244)95⁄8
(244)
93⁄8(238)93⁄8
(238)117⁄16
(291)1015⁄16
(278)111⁄16
(281)1113⁄16
(300)1313⁄16
(351)13
(330)14
(356)13¾(349)13¾(349)
14(356)17¾(451)185⁄8(473)
9½(241)12½(318)
15(381)
15(381)16¼(413)18¾(476)17½(445)18¾(476)21¼(540)21¼(540)22½(572)23¾(603)23¾(603)31¼(794)
1¼(32)1¼(32)1¼(32)1¼(32)1¼(32)1¼(32)1½(38)1½(38)1½(38)1½(38)1½(38)
2(51)
2(51)
2(51)
2¼(57)2¼(57)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)1¾(44)
127⁄8(327)127⁄8(327)153⁄8(391)153⁄8(391)165⁄8(422)191⁄8(486)177⁄8(454)191⁄8(486)215⁄8(549)215⁄8(549)227⁄8(581)261⁄8(664)261⁄8(664)315⁄8(803)
9(229)
10(254)
12(305)
12(305)
14(356)
14(356)
16(406)
18(457)
18(457)
18(457)
18(457)
20(508)
20(508)
24(610)
26(11.8)
30(13.6)
41(18.6)
41(18.6)
44(19.9)
47(21.3)
49(22.2)
59(26.7)
74(33.5)
74(33.5)
90(40.8)143(65)154(70)203(92)
22 (10.0)24 (10.9)25 (11.3)31 (14.0)
APPROXIMATESHIP WT.lbs. (kg)
DIMENSIONAL DATAFigure 3 – Serpentine Type
Models 108A, 118A, 125A, 136A
Table 2 – Figure 4 Header ModelsNOMINAL
FAN DIAMETERinches (mm)
NUMBEROF
LOUVERSUNIT SIZE
* Applies to standard motor with standard fan guard. When optional motors or OSHA fan guards are requested, dimensions will vary according to the substitutions made.NOTES: 1. OSHA guard standard on all serpentine models and header models 18 thru 48 supplied with 1 phase motors (dimensions shown in tables). 2. Standard motor and standard guard shown. 3. All 3 phase and explosion proof motors are shelf mounted.
A B C D E F G* H* J K L M N inches inches inches inches inches inches inches inches inches inches inches inches inches (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm) (mm)
Figure 4 – Header Type Models 18 thru 360
Hinches (mm)
Binches (mm)
APPROXIMATE SHIP WT. lbs. (kg)
NOMINAL FAN DIAMETER
inches (mm)
NUMBEROF
LOUVERS
Cinches (mm)
108A118A125A136A
Winches (mm)UNIT SIZE
5556
Table 1 – Figure 3 Serpentine Models
NOTE: Motors are totally enclosed, thermally protected, sleeve bear-ing, with 2"(h) x 4"(w) conduit connection boxes. 3/8-16 nutserts are attached to enclosure for balanced hanging.
Ainches (mm)
16 (406)16 (406)16 (406)
18½ (470)
18 (457)18 (457)18 (457)
20½ (521)
167⁄32 (412)167⁄32 (412)167⁄32 (412)1822⁄32 (475)
11¼ (286)11¼ (286)11¼ (286)13¾ (349)
4¼ (108)4¼ (108)4¼ (108)
511⁄16 (144)
9 (229)10 (254)10 (254)12 (305)
5
18
24
36
48
60
72
84
96
108
120
132
144
156
180
204
240
280
300
360
395(2.007)
330(1.676)
450(2.286)
380(1.930)
550(2.794)
480(2.438)
550(2.794)
460(2.337)
650(3.302)
510(2.591)
800(4.064)
700(3.556)
900(4.572)
750(3.810)
930(4.724)
800(4.064)1000
(5.080)900
(4.572)900
(4.572)950
(4.826)1000
(5.080)1150
(5.842)800
(4.064)1000
(5.080)900
(4.572)980
(4.978)700
(3.556)1000
(5.080)
395(.186)330
(.156)450
(.212)380
(.179)550
(.260)480
(.227)750
(.354)630
(.297)900
(.425)700
(.330)1100(.519)950
(.448)1400(.661)1100(.519)1400(.661)1100(.519)1800(.850)1500(.708)1900(.897)2000(.944)2200
(1.038)2600
(1.227)2200
(1.038)2900
(1.369)3500
(1.652)4200
(1.982)5000
(2.360)5500
(2.596)
1550
1350
1550
1350
1550
1350
1000
900
1000
900
1000
900
1000
900
1000
900
1000
900
1140
1140
1140
1140
1140
1140
1140
1100
1100
1100
16 Watts
16 Watts
25 Watts
1/20(.037)
1/20(.037)
1/20(.037)
1/12(.062)
1/12(.062)
1/12(.062)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/2(.373)
1/2(.373)
1/2(.373)
102(39)105(41)109(43)112(44)119(48)120(49)119(48)123(51)121(49)131(55)120(49)123(51)115(46)123(51)123(51)132(56)115(46)120(49)118(48)121(49)120(49)115(46)135(57)124(51)123(51)121(49)117(47)120(49)
75(7.0)68
(6.3)100(9.3)90
(8.4)150
(13.9)135
(12.5)200
(18.6)180
(16.7)250
(23.2)225
(20.9)300
(27.9)270
(25.1)350
(32.5)315
(29.3)400
(37.2)360
(33.4)450
(41.8)405
(37.6)500
(46.5)550
(51.1)600
(55.7)650
(60.4)770
(71.5)850
(79.0)1000(92.9)1100
(102.2)1250
(116.1)1500
(139.4)
18.0(8.2)16.2(7.3)24.5
(11.1)22.0
(10.0)37.0
(16.8)33.0
(14.9)49.0
(22.2)44.0
(19.9)61.0
(27.6)55.0
(24.9)73.0
(33.1)66.0
(29.9)85.0
(38.5)76.0
(34.4)97.0
(43.9)88.0
(39.9)110.0(49.8)98.0
(44.4)122.0(55.3)134.0(60.7)146.0(66.1)160.0(72.5)190.0(86.1)208.0(94.2)244.0
(110.5)280.0
(126.8)310.0
(140.4)366.0
(165.8)
18,000(5.3)
16,200(4.7)
24,000(7.0)
21,600(6.3)
36,000(10.5)32,400(9.5)
48,000(14.1)43,200(12.7)60,000(17.6)54,000(15.8)72,000(21.1)64,800(19.0)84,000(24.6)75,600(22.2)96,000(28.1)86,400(25.3)
108,000(31.6)97,200(28.5)
120,000(35.2)
132,000(38.7)
144,000(42.2)
156,000(45.7)
180,000(52.7)
204,000(59.8)
240,000(70.3)
280,000(82.0)
300,000(87.9)
360,000(105.5)
9(228.6)
9(228.6)
10(254.0)
10(254.0)
10(254.0)
10(254.0)
12(304.8)
12(304.8)
12(304.8)
12(304.8)
14(355.6)
14(355.6)
14(355.6)
14(355.6)
16(406.4)
16(406.4)
16(406.4)
16(406.4)
18(457.2)
18(457.2)
18(457.2)
18(457.2)
18(457.2)
18(457.2)
20(508.0)
20(508.0)
24(609.6)
24(609.6)
0.80
0.80
1.2
1.4
1.4
1.4
2.2
2.2
2.2
4.5
4.5
4.5
4.5
4.5
4.5
4.5
5.4
5.4
5.4
STEAM PERFORMANCE DATA Table 3 - Header Type Models only
OutputBTU/HR*(kW)
Unit Size
Final Air°F
(°C)
MotorHP
(kW)MotorRPM
EDRSq. Ft.(sq. m)
Cond.lbs./hr.(kg/hr)
Nominal Amps
@115VAC†
Nominal FanDiameterInches(mm)
OutletFPM(m/s)
NominalCFM(m3/s)
Performance based on 2 LBS steam pressure (13.8 kpa) at heater with air entering @ 60°F (16°C). For Sound Ratings See Pages 7 & 9. Use conversion Table on page 3 for all metric conversions. * For the lower output, an optional Speed Controller must be ordered. †Stated AMP is full load for the standard motors. AMP draw varies by motor manufacturer ± 0.2 AMPS. Please see your unit’s motor data plate for exact (FLA) Full Load Amp rating. Additional motor data is shown on page 10.
6
EXAMPLE: – UNIT SIZE: _________ 24 Steam Pressure ___10 PSI Entering Air Temp. __ 40°F
I. CAPACITY A. For 2 LBS steam, 60°F entering air Read output directly from Table 3, 24,000 BTU/HR. (Ref., Std. 24).
B. For higher steam pressures Multiply output from Table 3 by appropriate correction and/or EAT’s above or below 60°F factor from Table 4 (below). 24,000 x 1.29 = 30,960 BTU/HR
II. FINAL AIR TEMPERATURE A. For 2 LBS steam, 60°F entering air Read temperature directly from Table 3, 109°F. (Ref., Std. 24).
B. For capacities calculated in I.B. (above) Output from I.B. + EAT = Final Air Temp. 30,960 + 40 = 103.4°F 1.085 x CFM from Table 3
1.085 x 450
III. FINAL AIR VOLUME Nom. CFM Final
A. For 2 LBS steam, 60°F entering air 460 + Final Air Temp from Table 3 x from = Air 460+109 x 450 = 483 CFM
530 Table 3 Volume 530
Nom. CFM Final B. For final air temperatures calculated 460 + Final Air Temp from II.B. x from = Air 460+103.4 x 450 = 478 CFM In II. B. (above) 530 Table 3 Volume 530
IV. CONDENSATE PER HOUR Read LBS per hour from Table 3, 24.5 LBS/HR A. For 2 LBS steam, 60°F entering air (Ref., Std. 24).
B. For capacities calculated in IB (above) Output from IB = LBS per hour of condensate 30,960 = 32.5 LBS/HR Latent Heat From Table 5 953
30 -(1) 40 (4) 50 (10) 60 (16)
70 (21) 80 (27) 90 (32) 100 (38)
STEAM PRESSURE (SATURATED) — LBS PER SQUARE INCH (kPa)
STEAM PRESSURE IN PSIG (kPa)15
(103.4)249.8
(121.0)946
(2200)
2(13.8)218.5
(103.6)966
(2247)
10(68.9)239.4
(115.2)953
(2217)
Steam Pressurepsi (kPa)Steam Temperature°F (°C)Latent Heat of SteamBtu/lbm (KJ/Kg)
0(0)212
(100)970
(2256)
15(103.4)
1.441.341.281.19
1.121.040.970.89
5(34.5)
1.291.211.131.05
0.970.900.830.76
2(13.8)
1.241.161.081.00
0.930.850.780.71
ENTERING AIRTEMPERATURE
°F (°C)10
(68.9)
1.381.291.211.13
1.060.980.910.84
TABLE 4 — STEAM CORRECTION FACTORS BASED ON 2 PSI (13.8 kPa) STEAM AND 60°F (16°C) EAT
0(0)
1.191.111.030.96
0.880.810.740.67
TABLE 5 — PROPERTIES OF SATURATED STEAM
STEAM CALCULATIONS AND CORRECTION FACTORS
5(34.5)227.1
(108.4)961
(2235)
20(137.9)
1.501.421.331.25
1.171.101.020.95
30(206.8)
1.601.511.431.35
1.271.191.121.04
40(275.8)
1.681.601.511.43
1.351.271.191.12
50(344.7)
1.701.661.581.50
1.421.341.261.19
75(517.1)
1.901.811.721.64
1.551.471.391.32
30(206.8)274.0
(134.4)929
(2161)
50(344.7)297.7
(147.6)912
(2121)
75(517.1)319.9
(159.9)891
(2072)
40(275.8)286.7
(141.5)920
(2140)
20(137.9)258.8
(126.0)940
(2186)
100(689.4)
2.021.931.841.75
1.661.581.501.42
125(861.8)
2.112.021.931.84
1.761.681.591.51
150(1,034.1)
2.202.112.021.93
1.841.761.671.59
125(891.8)352.9
(178.3)868
(2019)
150(1,034.1)365.9
(185.5)857
(1993)
100(689.4)337.9
(169.9)881
(2049)
7
II
I
II
I
II
I
II
I
II
I
II
I
II
I
II
I
II
I
II
I
III
II
III
II
III
II
III
IV
IV
IV
III
IV
IV
IV
IV
IV
250(1.270)
215(1.092)
500(2.540)
420(2.134)
590(2.997)
450(2.286)
550(2.794)
480(2.438)
395(2.007)
350(1.778)
450(2.286)
380(1.930)
550(2.794)
480(2.438)
550(2.794)
460(2.337)
650(3.302)
510(2.591)
800(4.064)
700(3.556)
900(4.572)
750(3.810)
930(4.724)
800(4.064)1000
(5.080)900
(4.572)900
(4.572)950
(4.826)1000
(5.080)1150
(5.842)800
(4.064)1000
(5.080)900
(4.572)980
(4.978)700
(3.556)1000
(5.080)
91(33)90
(32)94
(34)96
(36)102(39)106(41)99
(37)100(38)95
(35)99
(37)96
(36)98
(37)103(39)103(39)103(39)111(44)105(41)112(44)104(40)106(41)100(38)106(41)106(41)113(45)100(38)103(39)102(39)104(40)104(40)100(38)110(43)107(42)106(41)106(41)102(39)103(39)
108A
118A
125A
136A
18
24
36
48
60
72
84
96
108
120
132
144
156
180
204
240
280
300
360
HOT WATER PERFORMANCE DATATable 6 - Serpentine and Header Type Models
OutputBTU/HR*(kW)
UnitSize
FinalAir°F
(°C)
MotorHP
(kW)
PressureDrop
FT./H2O(m/water)
NominalAmps
@115VAC†
Sound Rating
OutletFPM(m/s)
NominalCFM(m3/s)
MotorRPM
Performance based on 200°F (93°C) EWT, 60°F (16°C) EAT, 20°F (11°C)TD. For Fan Diameter See Page 4. Use conversion Table on page 3 for all metric conversions. * For the lower output, an optional Speed Controller must be ordered. †Stated AMP is full load for standard motors. AMP draw varies by motor manufacturer ± 0.2 AMPS. Please see your unit’s motor data plate for exact (FLA) Full Load Amp rating. Additional motor data is shown on page 10.
8,030(2.4)6,800(2.0)
18,400(5.4)
15,650(4.6)
24,800(7.3)
21,230(6.2)
35,900(10.5)32,300(9.5)
13,050(3.8)
11,725(3.4)
17,400(5.1)
15,600(4.6)
26,100(7.6)
23,500(6.9)
34,800(10.2)31,300(9.2)
43,600(12.8)39,200(11.5)52,300(15.3)47,000(13.8)61,000(17.9)54,900(16.1)69,700(20.4)62,700(18.4)78,400(23.0)70,500(20.7)87,100(25.5)95,800(28.1)
104,000(30.5)
113,000(33.1)
118,000(34.6)
148,000(43.4)
174,000(51.0)
209,100(61.3)
230,000(67.4)
261,300(76.6)
0.8
(.050)
1.9
(.120)
2.5
(.158)
3.6
(.227)
1.3
(.082)
1.8
(.114)
2.7
(.170)
3.5
(.221)
4.4
(.278)
5.3
(.334)
6.1
(.385)
7.0
(.442)
7.9
(.498)
8.8(.555)
9.6(.606)10.4
(.656)11.3
(.713)11.8
(.744)14.9
(.940)17.4
(1.098)21.0
(1.325)23.0
(1.451)26.2
(1.653)
0.80(.244)
2.20(.671)
2.20(.671)
3.00(.914)
0.005(.002)
0.014(.004)
0.09(.027)
0.12(.037)
0.17(.052)
0.23(.070)
0.24(.073)
0.29(.088)
0.36(.110)
0.39(.119)0.41
(.125)0.43
(.131)0.53
(.162)0.6
(.183)0.79
(.241)1.06
(.323)1.33
(.405)2.1
(.640)2.1
(.640)
16 Watts
16 Watts
25 Watts
1/20(.037)
16 Watts
16 Watts
25 Watts
1/20(.037)
1/20(.037)
1/20(.037)
1/12(.062)
1/12(.062)
1/12(.062)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/3(.249)
1/2(.373)
1/2(.373)
1/2(.373)
1550
1350
1550
1350
1550
1350
1000
900
1550
1350
1550
1350
1550
1350
1000
900
1000
900
1000
900
1000
900
1000
900
1000
900
1140
1140
1140
1140
1140
1140
1140
1100
1100
1100
245(.116)210
(.099)500
(.236)420
(.198)580
(.274)460
(.217)850
(.401)750
(.354)395
(.186)350
(.165)450
(.212)380
(.179)550
(.260)480
(.227)750
(.354)630
(.297)900
(.425)700
(.330)1100(.519)950
(.448)1400(.661)1100(.519)1400(.661)1100(.519)1800(.850)1500(.708)1900(.897)2000(.944)2200
(1.038)2600
(1.227)2200
(1.038)2900
(1.369)3500
(1.652)4200
(1.982)5000
(2.360)5500
(2.596)
0.80
0.80
1.2
1.4
0.80
0.80
1.2
1.4
1.4
1.4
2.2
2.2
2.2
4.5
4.5
4.5
4.5
4.5
4.5
4.5
5.4
5.4
5.4
FlowRateGPM(L/s)
8
To obtain output for other Water Temperature Drops,multiply basic output rating by applicable Factor.To obtain flow for other Water Temperature Drops,multiply basic rate rating by applicable Factor.*To obtain Pressure Loss Feet (Meters) of Water for other temperature Drops, multiply Basic loss at 20°F (11°C) drop by Factor.
UNIT SIZEMINIMUMGPM (L/s)UNIT SIZEMINIMUMGPM (L/s)
EXAMPLE: – UNIT SIZE: ______________________ 24 Entering Water Temp. ____________ 160°F Entering Air Temp. _______________ 40°F Water Temperature Drop __________ 10°F
I. CAPACITY @ 20° TD: A. For 200°F EWT, 60°F EAT Read output directly from Table 6, 17,400 BTU/HR (Ref., Std. 24). B. For EWT and/or EAT above Multiply output from Table 6 or below Standard by factor from Table 7 (below). 17,400 x .878 = 15,277 BTU/HR.
II. CAPACITY AT OTHER TD’s Multiply output obtained in IA. or IB. IA - 17,400 x 1.15 = 20,010 BTU/HR. A. For TD’s from 5 to 60°F (above) by appropriate factor from Table 8 – OR – (below) IB - 15,277 x 1.15 = 17,569 BTU/HR. III. GPM AT OTHER TD’s Multiply GPM of unit for 20°F TD, from Table 6 1.8 x 2.30 = 4.14 GPM (Applies only to units with A. For TD’s from 5 to 60°F by appropriate factor from Table 8 (below). Std. 200° EWT, 60°F EAT) For all others calculate
BTU using formula – GPM = 500 x TD IV. CAPACITY AT OTHER RATES Multiply output from Table 6 by factor OF WATER FLOW from Table 10 (below).
V. PRESSURE LOSS AT OTHER TD’s Multiply PD of unit for 20°F TD, from Table 6 A. For TD’s from 5 to 60°F by appropriate factor from Table 8 (below). .014 x 5.00 = .07 Ft. H2O
100°(38)
0.5180.4390.3610.2860.2120.1400.0690.000
120°(49)
0.6660.5850.5060.4290.3530.2790.2070.137
140°(60)
0.8140.7310.6510.5710.4940.4190.3450.273
160°(71)
0.9630.8780.7960.7150.6360.5580.4830.409
240°(116)1.5551.4641.3751.2861.2011.1171.0350.955
260°(127)1.7021.6091.5181.4291.3421.2571.1731.094
TABLE 7 — HOT WATER CONVERSION FACTORS BASED ON 200°F (93°C) ENTERING WATER,60°F (16°C) ENTERING AIR AND 20°F (11°C) TEMPERATURE DROP
TABLE 8 — HOT WATER OUTPUT, FLOW RATE AND PRESSURE LOSS FACTORS BASED ON STANDARDCONDITIONS OF 200°F (93°C) ENTERING WATER, 60°F (16°C) ENTERING AIR & 20°F (11°C) WATER DROP
*TABLE 9 — MINIMUM WATER FLOW
*TABLE 10 — HEATING CAPACITY FACTORS FOR VARIOUS RATES OF WATER FLOW
ENTERING AIRTEMPERATURE
°F (°C) 30 -(1) 40 (4) 50 (10) 60 (16) 70 (21) 80 (27) 90 (32) 100 (38)
ENTERING WATER TEMPERATURE — °F (°C)180°(82)
1.1201.0250.9410.8570.7770.6980.6210.546
200°(93)
1.2681.1721.0851.0000.9180.8370.7590.682
220°(104)1.4081.3171.2311.1431.0600.9770.8970.818
280°(138)1.8501.7551.6631.5711.4831.3971.3111.230
300°(149)1.9971.9081.8241.7171.6301.5451.4621.371
5 (3)
1.25
5.00
10.00
25(14)
.94
.74
.60
30(17)
.90
.59
.40
20(11)
1.00
1.00
1.00
60(33)
.72
.24
.07
40(22)
.83
.40
.20
50(28)
.76
.30
.13
TEMPERATURE DROP °F (°C)USE FACTORS FROM THIS TABLE TO OBTAIN APPROXIMATE RESULTS
963.350(.211)
1324.09
(.258)
3606.08
(.384)
3006.08
(.384)
721.620(.102)
841.860(.117)
125A0.125(.008)
601.490(.094)2804.59
(.290)
481.490(.094)2404.59
(.290)
2044.34
(.274)
361.240(.078)
1804.34
(.274)
241.240(.078)
1564.09
(.258)
180.750(.047)
1444.09
(.258)
136A0.125(.008)
118A0.125(.008)1203.60
(.227)
108A0.125(.008)1083.35
(.211)
175%1.10
25%.80
75%.96
125%1.04
150%1.07
50%.89
% of Rated Water FlowHeating Capacity Factor
100%1.00
10(6)
1.15
2.30
5.00
15(8)
1.08
1.44
2.00
HOT WATER CALCULATIONS AND CORRECTION FACTORS
9
CORRECTIONS WHEN USING GLYCOL SOLUTION IN SYSTEM
TECHNICAL DATA
SOUND RATING
I
II
III
IV
V
III - VII*
CATEGORY OF AREA
Apartment, assembly hall, classrooms churches, courtrooms, executive offices, hospitals, libraries, museums, theatres.
Dining rooms, general offices, recreation areas, small retail stores.
Restaurants, banks, cafeterias, depart-ment stores, public buildings, service stations.
Gymnasiums, health clubs,laundromats, supermarkets.
Garages, small machine shops, lightmanufacturing.
Factories, foundries, steel mills.
* Depending on specific use in these facilities, size of operation, etc.
TECHNICAL DATA
Propylene
Glycol
1. Heat transfer 20% solution .97* @180°F (82°C) with no increase in flow rate 50% solution .90*
2. G.P.M. Req’d. @180°F (82°C), 20°F (11°C) ∆ t (no correction to pump curve) 1.10%*
3. Pump Head Req’d. @180°F (82°C) w/increase in G.P.M. 1.23%*
4. Specify gravity (water = 1.0) 1.045-1.055*
5. Pounds/Gallons @60°F (16°C) 8.77 (water = 8.3453 Pound/Gallon)
6. pH @ 50% by volume 9.5
The performance data listed in Table 6 includes sound ratings. The ratings provide a guide in determining the acceptable degree of loudness in particular occupancy situations.
Certain general rules apply to specific selection of unit heaters with regard to degree of quietness (or loudness);• The greater the fan diameter, the
higher the sound level.• The higher the motor RPM, the higher
the sound level. Note that on most units the lower the speed mode results in lowering the sound rating one incre-ment.
• Selecting a larger number of smaller units generally results in lower overall noise levels than fewer large units.
All horizontal steam and hot water unit heater motors, whether fan guard or shelf-mounted, are isolated from the mechanical mount by resilient isolators. This mounting along with balanced fan blades and excellent overall construction integrity, assures you the utmost in quiet operation.
The following table outlines sound ratings for various applications. The lower the number, the quieter the unit and the lower the sound requirement.
Propylene Glycol7. Freezing Point 55% by volume - 50% -28°F (-33°C) 40% -13°F (-25°C) 30% + 4°F (-16°C) 20% +17°F (- 8°C)
*Compared to water.
Altitude Factor Sea level - 1000 ft. (305m) 1.00 1000 ft. - 3000 ft. (915m) .958 3000 ft. - 5000 ft. (1524m) .929 5000 ft. - 7000 ft. (2134m) .900 7000 ft. - 10000 ft. (3048m) .871
Approximate factors at varying altitudes
10
—
1140
11401140
—
5.0/2.5
5.0/2.55.0/2.5
—
1/3
1/31/3
8.3
12.2
17.6/8.821.6/10.8
4.6
6.8
9.8/4.912.0/6.0
230/1/60
208-230/460/3/60
1
1.81.51.82.8
5.6
6.8
0.5
1.80.81.82.8
5.6
6.8
3.3-3.3/1.6
18, 24,
108A, 118A136A
36, 125A 48, 60, 7284, 96,108
120, 132, 144156, 180, 204
240280, 300, 360
18, 24,108A, 118A
136A36, 125A 48, 60, 7284, 96,108
120, 132, 144, 156,180, 204,
240280, 300, 360
48, 60, 72, 84, 96, 108, 120,
132, 144, 156, 180, 204, 240280, 300, 360
1550
1000155010001000
1140
1100
1550
1000155010001000
1140
1100
1140
—
2.2/1.1
2.2/1.12.2/1.1
1140
1140
11401140
16W*
1/20*25W*1/20*1/12*
1/3
1/2
16W
1/20†25W1/20†1/12†
1/3†
1/2†
1/2**
0.8
1.41.2 1.42.2
4.5
5.4
0.4
1.40.61.42.2
4.5
5.4
2.6-2.6/1.3
1.8
3.22.73.25.0
10.1
12.2
0.9
3.21.43.25.0
10.1
12.2
5.9-5.9/2.9
MOTOR DATANOTE 1: All motors are constant speed and operate at top speed as indicated in motor data. Models 18 through 108, including 108A, 118A, 125A and 136A can be run at reduced speed with addition of optional variable speed switch. This switch is factory-calibrated for low and high speed ratings, with intermediate speeds infinitely controllable. Models 120 through 360 operate at constant speed as indicated in motor data. All 1/4 HP motors are P.S.C.
NOTE 2: Motors under 1/3 HP are total ly enclosed, frame mounted, 115/1/60 with thermal overload protection and permanently lubricated sleeve bearings with optional speed controller available. 1/3 HP (115/1/60) motors are open frame constant speed with thermal over-load protection and ball bearings. 1/3 HP (230V) and 1/2 HP (230V) motors are open frame constant speed with thermal overload protection and ball bearings.
NOTE 3: 1/3 and 1/2 HP motors are available as 230V single and 3 phase in open frame and explosion-proof housings, all available as options. 1/3 and 1/2 HP motors operate at single speed only.
NOTE 4: Stated AMP draw is Full Load Amp (FLA). AMP draw varies by motor manufacturer ± 0.2 AMPS. Verify FLA per unit motor data plate.
Select appropriate AMP, MCA, and MOP for the multiple voltage motors. For example, the AMP, MCA, and MOP for Models 360 with a 460 volt Totally Enclosed motor is 1.3, 1.6 and 2.9 respectively.
NOTICE: Also refer to Maintenance section for additional motor data.
Table 11 - TOTALLY ENCLOSED MOTOR TYPE
Unit Size
AMP
MCA
MOP
HP
RPM
1/6†
1/4†
1/3***1/2***
3.7
5.4
7.8/3.99.6/4.8
48, 60, 72, 84,
96, 108, 120, 132144, 156, 180,
204240, 280, 300
360
115-230/1/60
Table 12 - EXPLOSION PROOF WITH THERMAL OVERLOAD MOTOR TYPE
Unit Size
AMP
MCA
MOP
HP
RPM
AMP
MCA
MOP
HP
RPM
—
2.8/1.4
2.8/1.42.8/1.4
***These motors are 115/230 volts.†230/1/60 unit has 115/1/60 motor supplied with field installed stepdown transformer.
*Optional variable speed switch is available. ** These motors are without thermal overload protection. Motors without
thermal overload protection must be installed with optional manual starter or field provided overload protection.
† 230/1/60 unit has 115/1/60 motor supplied with field installed stepdown transformer.
115/1/60
230/460/3/60
11
LOCATIONIt is assumed that the design engineer has selected, sized, and located in the area to be heated. However, the information given here may be of additional help to the installer. These sketches indicate suggested basic locations for different types of unit heaters.
Horizontal unit heaters should be located to give a circulatory motion, preferably in the outer perimeter of the building. The units should be spaced to properly blanket the areas with warm air.
The unit should be suspended from connections provided in the unit by means of rods. The rods should then be attached to solid supports of the building.
Add clearances to combustibles, including clearances for sufficient airflow and unit maintenance. (see Installation section).
Figure 5
Figure 6MOUNTING HEIGHT AND APPROX. HEAT THROW
Based on 2 PSI (13.8 kPa) steam pressure and 60°F (16°C) entering air temperature
A large square area withexposed walls and roof; unitsare blanketing all exposedsurfaces.
A small area with exposed walls requiring one unit.
A narrow area with two exposed walls either with or without roof exposure.
H
MAXIMUM DISTANCE OF THROW = T
Table 13
Typical arrangement of unit heaters in manufacturing plant, showing air flow patterns. Not to scale.
8 (2.4) 8 (2.4) 9 (2.7) 9 (2.7) 8 (2.4) 8 (2.4) 9 (2.7) 9 (2.7)10 (3.0)10 (3.0)10 (3.0)11 (3.4)11 (3.4)12 (3.7)13 (4.0)13 (4.0)13 (4.0)13 (4.0)13 (4.0)14 (4.3)14 (4.3)15 (4.6)15 (4.6)
20 (6.1)25 (7.6)29 (8.8)29 (8.8)20 (6.1)24 (7.3)28 (8.5)30 (9.1)30 (9.1)29 (8.8)30 (9.1)38 (11.6)40 (12.2)40 (12.2)54 (16.5)55 (16.8)55 (16.8)53 (16.2)55 (16.8)57 (17.4)57 (17.4)58 (17.7)60 (18.3)
108A118A125A136A
1824364860728496
108120132144156180204240280300360
UnitSize
Maximum Mounting HT. ft (m)
Approx. Max.Throw ft (m)
12
INSTALLATIONUNIT MOUNTINGInstall unit heaters to meet Occupational Safety and Health Act (OSHA) and ETL requirements. Unit heaters mounted lower than 8 feet (2.4m) from the floor must be equipped with an OSHA fan guard.
NOTICE: Units equipped with the motor mounted to the fan guard require two point suspension. Units equipped with a shelf mounted motor are required to be suspended at four points. Refer to Figures 3 and 4 for two point suspension and refer to Figure 6A for four point suspension.
Unit heaters must be hung level from side to side and from front to back. Failure to do so will result in poor performance and/or premature failure of the unit.
Make certain that the lifting methods used to lift the heater and the method of suspension used in the field installation of the heater are capable of uniformly supporting the weight of the heater at all times. Failure to heed this warning may result in property damage or personal injury!
Insure that all hardware used in the suspension of each unit heater is more than adequate for the job. Failure to do so may result in extensive property damage, severe personal injury, or death!
Make sure that the structure to which the unit heater is to be mounted is capable of safely supporting its weight. Under no circumstances must the water lines or the electrical conduit be used to support the heater; or should any other objects (i.e. ladder, person) lean against the heater water lines or the electrical conduit for support. Failure to heed these warnings may result in property damage, personal injury, or death.
Nutserts are provided at the top of all units for suspension purposes. Support rods should support the total unit weight to assure that no strain is placed on supply and return piping. Provisions for removal of the unit from the suspension rods may be desirable for servicing purposes.
Units must hang level vertically and horizontally.
For sufficient airflow, maintain 2 feet (0.61m) clearance from the front and back of the unit, and 7 inches (0.18m) from the top of the unit. Also provide sufficient clearance around units for maintenance purposes.
Isolators are not required but may be desirable for some applications. Refer to “Dimensional Data” in Tables 1 and 2.
PIPINGTo provide proper coil operation, follow all piping recommendations listed in this manual.
See Figures 7 through 11 for proper pipe connections.
Follow standard practices and codes when installing the piping. Provide swing joints for expansion purposes, unions and shut-off valves for servicing purposes and as illustrated in Figures 7 through 11, valves and traps for control purposes. Use 45 degree angle run-offs from all supply and return mains.
Dirt pockets should be the same pipe size as the return tapping of the unit heater. Also, pipe size in the branch-off should be the same size as the tapping in the traps. Beyond the trap, the return lateral pipe should be increased one size up to the return main.
It is assumed that the design engineer has selected the type of system to be used. The sketches shown are for different types of steam systems or hot water systems. For sizing of piping, traps, filter, etc., consult ASHRAE guides of the manufacturer’s literature on these products.
It is important that the system be kept clean. Care should be exercised that excessive joint materials or foreign substances be kept out of the system.
On steam systems it is recommended that the unit be installed level for proper condensate drainage. Swing joints should be used in piping, and pipes should be pitched down from units so that condensate can drain freely.
13
Figure 6AFour PointSuspension -Shelf Mounted Motors Only
"FORCED HOT WATER"(Serpentine Units)
RETURN
SUPPLY
PET COCK(SYSTEM VENT)
GATE VALVE
GATE VALVE
DRAIN VALVE
D-6057
RETURN
SUPPLY
PET COCK
(SYSTEM VENT)
GATE VALVE
GATE VALVE
DRAIN VALVE
"FORCED HOT WATER"
D-6056
Figure 8 Forced Hot Water Serpentine Unit Only
Figure 7 Forced Hot Water
CL
CL
D6340
UNIT SIZE
48/60
72
84 & 120
96/108
132/144/156
180/204
240/280
300/360
A
17-13/16
31-9/16
26-1/16
22-13/16
21-9/16
19-1/16
15-5/16
16-9/16
2-1/2
6"10"
3-1/2
4"
3"
1-7/8
2-1/2
4-1/2
B C
11-11/16
A
1-3/4
C
1"
B B 1-3/4
C
4 PT. SUSPENSIONUSE 3/8-16THREADED RODS(4 LOCATIONS)
14
PITCH UP
PITCH UP
RETURN
SUPPLY
PET COCK
GATE VALVE
"HIGH PRESSURE STEAM"
GATE VALVE
BUCKET TRAP
(WITH AIR BYPASS)
STRAINER
D-6058
Figure 9 High Pressure Steam
15
RETURN
SUPPLY
GATE VALVE
"LOW PRESSURE STEAM GRAVITY" GATE VALVE
AIR VENT
MIN. SIZE 3/4
CHECK VALVE
PITCH UP10" MIN. (254 MM)
PITCH UP
D-6059
Figure 10 Low Pressure Steam Gravity
16
PITCH UP
PITCH UP
RETURN
SUPPLY
GATE VALVE
"LOW PRESSURE
GATE VALVE
F & T TRAP
STRAINER
VAPOR OR VACUUM"
D-6060
Figure 11 Low Pressure Vapor Or Vacuum
17
HAZARDOUS VOLTAGE! DISCONNECT ALL ELECTRIC POWER INCLUDING REMOTE DISCONNECTS BEFORE SERVICING. Failure to disconnect power before servicing can cause severe personal injury or death.
Standard units are shipped for use on 115 volt, 60 hertz single phase electric power. The motor nameplate and electrical rating on the transformer should be checked before energizing the unit heater electrical system. All external wiring must conform to ANSI/NFPA No. 70, National Electrical Code (or the latest edition) and applicable current local codes; in Canada, to the Canadian Electrical Code, Part 1 CSA Standard C22.1.
Do not use any tools (i.e. screwdriver, pliers, etc.) across the terminals to check for power. Use a voltmeter.
It is recommended that the electrical power supply to each unit heater be provided by a separate, fused and permanently live electrical circuit. A disconnect switch of suitable electrical rating for each unit heater should be located as close to the controls as possible. Each unit heater must be electrically grounded in accordance with National Electric Code, ANSI/NFPA No. 70 (or the latest edition) or CSA Standard C22.1. Sample wiring connections are depicted in Figures 12 through 22.
OPERATIONMost basic unit heater systems are controlled by a room thermostat. Locate thermostat on inner wall or column so that optimum control can be obtained for that area. Set thermostat for desired temperature.
On steam systems a low limit may be used to prevent fan from blowing cold air unless the heater has steam passing through the coil.
Small hot water systems could have the circulating pump controlled directly by the room thermostat. On large systems, zone valves could be used to control the individual unit heater where constant water circulation is used on the main system.
THERMOSTAT WIRING AND LOCATION
NOTICE: The thermostat must be mounted on a vertical vibration-free surface free from air currents and in accordance with the furnished instructions.
Mount the thermostat approximately 5 feet (1.5 m) above the floor in an area where it will be exposed to a free circulation of average temperature air. Always refer to the thermostat instructions as well as our unit wiring diagram and wire accordingly. Avoid mounting the thermostat in the following locations:1. Cold areas - Outside walls or areas where drafts may affect the operation of the control.2. Hot areas - Areas where the sun’s rays, radiation, or warm air currents may affect control operation.3. Dead areas - Areas where air cannot circulate freely, such as behind doors or in corners.
NOTICE: For all wiring connections, refer to the wiring diagram on the motor nameplate (also refer to page 18). Should any original wire supplied with the heater have to be replaced, it must be replaced with wiring material having a temperature rating of at least 105° C.
ELECTRICAL CONNECTIONS
18
WIRING INSTALLATIONFigure 12 Figure 13 Figure 14
Figure 15 Figure 16 Figure 17
Figure 18 Figure 19 Figure 20
Figure 21 Figure 22
1 PHASE LINE
MAGNETIC�STARTING SWITCH
THERMOSTATMOTORS
SPEED �CONTROLLERS
SPEED CONTROLLERS WITH�MAGNETIC STARTING SWITCH�
FOR OPERATING SEVERAL UNITS
1 PHASE LINE
MOTOR
MANUAL STARTING�SWITCH
ROOM THERMOSTAT
THERMOSTATIC CONTROL�WITH MANUAL STARTER
MOTOR
MANUAL STARTING�SWITCH
1 PHASE LINE
MANUAL CONTROL WITH�SINGLE PHASE MOTOR
3 PHASE LINE
MAGNETIC�STARTING SWITCH
THERMOSTAT
THERMOSTATIC CONTROL�OF SEVERAL THREE PHASE UNITS
MOTORS
MOTOR
MANUAL STARTING�SWITCH
3 PHASE LINE
MANUAL CONTROL WITH�THREE PHASE MOTOR
MANUAL CONTROL WITHSINGLE PHASE MOTOR
THERMOSTATIC CONTROL WITH MANUAL STARTER
THERMOSTATIC CONTROL USING MAGNETIC STARTER OPERATING
SEVERAL UNITS
SPEED CONTROLLER WITH MANUAL STARTING SWITCH
SPEED CONTROLLERS WITH MAGNETIC STARTING SWITCH FOR OPER-
ATING SEVERAL UNITS
MANUAL CONTROL WITH THREE PHASE MOTOR
THERMOSTATIC CONTROL OF SEVERAL THREE
PHASE UNITS
1 PHASE LINE
MOTOR
MAGNETIC�STARTING SWITCH
THERMOSTAT
MOTOR
THERMOSTATIC CONTROL�USING MAGNETIC STARTER�OPERATING SEVERAL UNITS
1 PHASE LINE
MOTOR
MANUAL STARTING�SWITCH
THERMOSTAT
SPEED CONTROLLER
SPEED CONTROLLER WITH�MANUAL STARTING SWITCH
THERMOSTATIC CONTROL WITH REVERSE ACTING CONTROLLER
AND MANUAL STARTER
THREE POSITION SELECTOR SWITCH USED FOR EITHER MANUAL OR
THERMOSTATIC CONTROL
THREE POSITION SELECTOR SWITCH BUILT INTO MAGNETIC STARTER FOR
MANUAL OR THERMOSTATIC CONTROL
THERMOSTATIC CONTROL WITH LIMIT CONTROLLER FOR
THREE PHASE MOTOR
NOTICE1. When using a speed controller,
always locate the thermostat between the speed controller and the line, not between the motor and the controller.
2. For internal wiring and over-load protection on all starters, consult the control manufacturer for details.
3. When using thermostatic control with a manual starter, be sure that the electrical rating of the thermostat is sufficient to carry the motor current.
1 PHASE LINE
MOTOR
MANUAL STARTING�SWITCH
ROOM THERMOSTAT
THERMOSTATIC CONTROL WITH�ACTING LIMIT CONTROLLER�
AND MANUAL STARTER
LIMIT CONTROLLER�REVERSE ACTING
MOTOR
MANUAL STARTING�SWITCH
1 PHASE LINE
THREE POSITION SELECTOR SWITCH�USED FOR EITHER MANUAL �
OR THERMOSTATIC CONTROL
LIMIT CONTROLLER
SELECTOR �SWITCH THERMOSTAT
MOTOR
MANUAL STARTER�WITH BUILT IN �SELECTOR SWITCH
1 PHASE LINE
THREE POSITION SELECTOR SWITCH�BUILT INTO MAGNETIC STARTER FOR�
MANUAL OR THERMOSTATIC CONTROL
LIMIT CONTROLLER
THERMOSTAT
MOTOR
MANUAL STARTING�SWITCH
3 PHASE LINE
MANUAL CONTROL WITH�THREE PHASE MOTOR
LIMIT CONTROLLER�REVERSE ACTING
THERMOSTAT
19
VARIABLE SPEED CONTROL 115 Volt Only (optional)The solid state speed controller may be installed at any convenient location and is suitable for surface or flush type mounting. A Standard electrical single or double gang wall box is recommended as in Figure 23.
Figure 23Wiring Diagram of Speed Control Installation
Installation procedure:1. Attach the control’s leads to the electrical leads in
the control box using wire nuts. The speed control is to be wired in series with the motor. See wiring diagram in Figure 23.
2. Make certain wire nuts are tight with no copper wire being exposed.
3. Place wires and wire nuts back into box allowing room for the control to fit in box also.
4. Mount speed control to box using number 6 flathead screws provided.
Setting the control:1. Turn the control shaft fully clockwise. If the motor
is not running at the desired low speed, adjust the trim on the face of the control for low speed setting using a small screwdriver.
2. Rotate the control shaft counter clockwise. The speed will increase smoothly from minimum to maximum and then switch off.
3. Mount face plate with screw provided and attach control knob.
STRAP-ON WATER CONTROLA SPDT strap-on type hot water control with 100° to 240°F (38 to 116°C) rated at 10 amps at 120V is also available. Control can be used for direct or reverse acting applications as high or low limit.
STEAM PRESSURE CONTROLSPDT switch opens on a rise in pressure. Control is automatically reset, has a range of 0 to 15 PSIG (0 to 103 kPa) and has an adjustable differential. Other actions, ranges, circuits and manual reset models are available on request.
OPTIONSOSHA FAN GUARDAll units mounted below 8 feet (2.44m) are required to have an OSHA fan guard. OSHA fan guards are available for all coil sizes (with single phase, standard motors only) but are standard equipment on all serpentine style coils and header style coil sizes 18 through 48.
HORIZONTAL AND VERTICAL LOUVERSHorizontal louvers are standard on all models. Vertical louvers are an optional accessory on all models. Vertical louvers are installed on built to order units or shipped loose for field installation.
Figure 24 Horizontal and Vertical Louver Mounting
THERMOSTATSLine voltage wall thermostats are in stock for immediate shipment. All models are SPST with bimetal thermometer, knob-type set point adjustment, 40 to 90°F (5 to 30°C) range and selector switches. Standard duty models with “off-auto” and “auto-off-fan” and a heavy duty model with “auto-off-fan” switching are available. Other models available on request. Plastic tamperproof one size fits all thermostat guards are also available.
MANUAL STARTERSSingle and three-phase models are available. Standard models are single-speed, toggle-operated, NEMA Type 1 and are surface-mounted.
WALL MOUNTED SPEED CONTROLLERSUnits with standard motors up to Model 108 (115/1/60) can be operated at reduced speeds by addition of optional speed controller. Controller is 5 amps, pre-set at factory for maximum and minimum speeds, with intermediate speeds infinitely controllable. All 1/3, 1/2 HP and 230V motors operate only at rated speed and CFM – See Charts.
NOTICE: When using electrical accessories, always refer to the accessory manufacturer’s installation manual for proper use, location and wiring instructions.
20
MAINTENANCEPERIODIC SERVICE
Open all disconnect switches and secure in that position before servicing unit. Failure to do so may result in personal injury or death from electrical shock.
Because of the simple design of the steam and hot water unit heaters, they are nearly maintenance free. However, depending on the environment, simple maintenance practices should be adopted.
Periodically check the finned surfaces and vacuum these as often as necessary to remove any accumulation of lint and dirt. Check fan blades and remove dirt accumulation. If fan blades are not cleaned they tend to become unbalanced.
Most of the motors supplied on the unit heaters have either ball bearings or sleeve bearings and should not require lubrication for long periods of time. It is however advisable that motor maintenance and lubrication recommended by the motor manufacturer be followed.
Check motors for dirt and dust accumulation, and remove any accumulation as often as necessary. Open type motors may overheat if the dirt or dust is not removed from ventilation openings.
Allow rotating fans to stop before servicing to avoid serious injury to fingers and hands.
MOTOR LUBRICATION
Sleeve BearingsMotors with oilers or oil holes are lubricated before shipment with a good grade of electric motor oil. Refill when necessary, with the motor at a stand-still, until oil reaches the proper level.
Use SAE 20W non detergent oil for motors operating in ambient temperatures of 32°F to 100°F (0°C to 38°C). Below 32°F (0°C), SAE 10W non detergent oil will be required.
The frequency of oiling will depend upon operating conditions and length of running time. Inspect the oilers or oil holes when cleaning the unit. If the unit has a fractional horse-power motor, lubricate at least once a year. Under high ambient conditions or constant fan operation, fractional horse-power motors should be lubricated every 90 days. On those motors without oilers or oil holes, follow the instructions given on the motor nameplate.
Ball BearingsBall bearing motors are pre-lubricated and normally not equipped with grease fittings. However, motors are equipped with removable grease plugs to allow installation of grease fittings if desired by owner. Motor manufacturers do not recommend or require on the job lubrication of ball bearing motors.
If on the job lubrication is required by the owner, use the following procedure: With the motor at a stand-still, remove the vent and grease plugs. Install grease fitting and add grease sparingly. Remove the old grease from the vent relief chamber. Operate the motor a few minutes before reinstalling the vent plug to allow excess grease to escape. If there is evidence of grease working out around the motor shaft, less grease should be added and the greasing periods lengthened. If grease continues to appear, take the motor to the motor manufacturer’s authorized service station for repair.
NOTICE: Consult local motor manufacturer’s service facility for information on type of grease and oil to be used.
NOTICE: The heater system should be checked once a year by a qualified technician. All maintenance/service information should be recorded accordingly on the inspection sheet provided in this manual.
Should maintenance be required, perform the following inspection and service routine:
CLEANING THE UNITThe unit casing, fan, diffuser and coil should be cleaned thoroughly once a year. Coil heat transfer efficiency depends on cleanliness. The following recommended procedures may be performed when lubricating the motor and cleaning the coil.
1. Wipe all excess lubricant from the motor, fan and casing. Clean the motor thoroughly. A dirty motor will run hot and eventually cause internal damage.
2. Clean the coil:a) Loosen the dirt with a brush on the fan side of
the coil. Operate the motor allowing the fan to blow the loosened dirt through the unit.
b) Use high pressure air or steam on the side of the coil away from the fan.
NOTICE: A piece of cheesecloth or a burlap bag may be used to collect the large particles during the cleaning process.
3. Clean the casing, fan blades, fan guard and diffuser using a damp cloth. Any rust spots on the casing should be cleaned and repainted.
4. Tighten the fan guard, motor frame and fan bolts. Check the fan for clearance in the panel orifice and free rotation.
21
REPLACEMENT PARTS
10 - Fan (1)11 - Junction Box (1)12 - Junction Box Cover (1)13 - Connector (1)14 - Conduit, Flex (1)15 - Anti-Short (2)16 - Screw (4)17 - Nut Retainer (4)18 - Bolt (3) Models 24 & 36, (4) Models 48/20419 - Flange Screw20 - Threaded Inserts
1 - Element (1) 2 - Bottom Jacket Panel (1) 3 - Venturi Jacket Panel (1) 4 - Top Jacket Panel (1) 5 - Motor Mount & Fan Guard* [Std. Unit Shown] 6 - Motor Mounting Bracket [3 Phase and/or Explosion Proof]* 7 - Motor Mounting Angle [3 Phase and/or Explosion Proof]* (1) 8 - Motor [Std. Units]* 9 - Motor [3 Phase and/or Explosion Proof]*
HORIZONTAL STEAM UNIT HEATER PARTS
When ordering replacement partsModel, Model Type (IE: Standard or Exp. Proof), Size & Item Numbers must be specified
Consult factory for price and availability
Figure 25Horizontal Steam Unit Heaters
( ) = Qty Req’d per unit *Select One
TO MOTOR
TO FAN
188
21
204
16
2723
22
510
14
249
3022
23
3113
15
12
11
3
25
26
6
19
26
17
29
28
1
2
7
22
30
D-6061
TO MOTOR
TO FAN
188
21
204
16
2723
22
510
14
249
3022
23
3113
15
12
11
3
25
26
6
19
26
17
29
28
1
2
7
22
30
D-6061
21 - Grommet (4)22 - Washer, Flat (4)23 - Nut (4)24 - Bolt (4)25 - Washer, Spring Lock (8)26 - Nut (8)27 - Screw (2)28 - Louvers (Horiz)29 - Cone Spring30 - Grommet, Stem (4)31 - Screw (18)
22
1. Frozen coil. 2. Defective coil. 3. Corrosion. 4. Leak in joint.
1. Check for air in coil. 2. Lint on coil fins. 1. No circulation of water through coil.
2. Short cycling of motor.
3. Backward rotating motor.
1. Damaged fan blade. 2. Dirty fan blade.
A. Leaking coil.
B. Poor output on steam. C. Poor output on steam or hot water.
D. Noisy or vibrating unit.
1. Replace. 2. Replace. 3. Replace 4. Braze joint if joint is exposed where leak has occurred. 1. Repair or replace thermostatic air vent. 2. Clean coil and fins. 1. Check circulation pump. Check for blocked tubes. 2. Check voltage and correct. Check for linted coil and clean. Check for defective overload and repair or replace motor. 3. On single phase motor replace motor. On three phase motor, reverse two leads to change rotation. 1. Change fan blade. 2. Clean fan blade.
SYMPTOMS POSSIBLE CAUSE(S) CORRECTIVE ACTION
Table 14 - Troubleshooting Guide
HOW TO ORDER REPLACEMENT PARTSPlease send the following information to your local representative; If further assistance is needed, contact the manufacturer’s customer service department.• Model number• Serial Number (if any)• Part description and Number as shown in the Replacement Parts Catalog.
In the interest of product improvement, we reserve the right to make changes without notice.
LIMITED WARRANTY
HORIZONTAL STEAM & HOT WATER UNIT HEATERS
The Manufacturer warrants to the original owner at the original installation site that the Horizontal Steam and Hot Water Unit Heaters (the “Product”) will be free from defects in material and workmanship for a period not to exceed one (1) year from startup or eighteen (18) months from date of shipment from the factory, whichever occurs first. If upon examination by the Manufacturer the Product is shown to have a defect in material or workmanship during the warranty period, the Manufacturer will repair or replace, at its option, that part of the Product which is shown to be defective.
This limited warranty does not apply: (a) if the Product has been subjected to misuse or neglect, has been accidentally or intentionally damaged,
has not been installed, maintained or operated in accordance with the furnished written instructions, or has been altered or modified in any way.
(b) to any expenses, including labor or material, incurred during removal or reinstallation of the defective Product or parts thereof.
(c) to any workmanship of the installer of the Product.
This limited warranty is conditional upon: (a) shipment, to the Manufacturer, of that part of the Product thought to be defective. Goods can only be
returned with prior written approval from the Manufacturer. All returns must be freight prepaid. (b) determination, in the reasonable opinion of the Manufacturer, that there exists a defect in material or
workmanship.
Repair or replacement of any part under this Limited Warranty shall not extend the duration of the warranty with respect to such repaired or replaced part beyond the stated warranty period.
THIS LIMITED WARRANTY IS IN LIEU OF ALL OTHER WARRANTIES, EITHER EXPRESS OR IMPLIED, AND ALL SUCH OTHER WARRANTIES, INCLUDING WITHOUT LIMITATION IMPLIED WARRANTIES OF MERCHANTABILITY OR FITNESS FOR A PARTICULAR PURPOSE, ARE HEREBY DISCLAIMED AND EXCLUDED FROM THIS LIMITED WARRANTY. IN NO EVENT SHALL THE MANUFACTURER BE LIABLE IN ANY WAY FOR ANY CONSEQUENTIAL, SPECIAL, OR INCIDENTAL DAMAGES OF ANY NATURE WHATSOEVER, OR FOR ANY AMOUNTS IN EXCESS OF THE SELLING PRICE OF THE PRODUCT OR ANY PARTS THEREOF FOUND TO BE DEFECTIVE. THIS LIMITED WARRANTY GIVES THE ORIGINAL OWNER OF THE PRODUCT SPECIFIC LEGAL RIGHTS. YOU MAY ALSO HAVE OTHER RIGHTS WHICH MAY VARY BY EACH JURISDICTION.
Customer ____________________________________ Job Name & Number _________________________
PRE-INSPECTION INFORMATIONWith power and water/steam off.
Type of Equipment: Unit Heater Serial Number _________________________ Model Number __________________________Name Plate Voltage: _____________ Name Plate Amperage: _____________ Steam Hot Water Rating: _ _____ BTU @ ____ °F _ _____ kw @ ____ °C
p Are all panels in place?p Has the unit suffered any external damage? Damage ______________________________p Does the piping and electric wiring appear to be installed in a professional manner?p Has the piping and electric been inspected by the local authority having jurisdiction?p Is the supply properly sized for the equipment?p Were the installation instructions followed when the equipment was installed?p Have all field installed controls been installed?p Do you understand all the controls on this equipment? If not, contact your wholesaler or rep. (DO NOT START this equipment unless you fully understand the controls.)
EQUIPMENTSTART-UP
FANWith power on.
❐ Check voltage. L1_____ L2_____ L3_____❐ Check fan rotation.❐ Check motor amps. L1_____ L2_____ L3_____
Remarks: _________________________________________________________________________________________________________________________________________________
